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COS 429 PS3: Stitching a Panorama

COS 429 PS3: Stitching a Panorama. Due November 4 th. Goal. Find key features in images and correspondences between images Use RANSAC to find the best correspondences Map one image plane to another to create a panoramic image. Problem 1: Preprocessing.

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COS 429 PS3: Stitching a Panorama

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  1. COS 429 PS3: Stitching a Panorama Due November 4th

  2. Goal • Find key features in images and correspondences between images • Use RANSAC to find the best correspondences • Map one image plane to another to create a panoramic image

  3. Problem 1: Preprocessing • Most feature descriptors only work with grayscale images • Task: • Convert color images to grayscale • You can use Matlab function rgb2gray • Copy the lines of code you wrote in the report

  4. Problem 2: Detecting Key Points • Want to detect the key points in both images and find corresponding key points between both images • Task: • Find SURF features in both images • You can use Matlab function detectSURFFeatures • Copy the lines of code you wrote in the report

  5. Problem 3: Extracting Descriptors • Extract feature descriptors at each key point detected in Problem 2 • Task: • Extract feature for each key point • You can use Matlab function extractFeatures • Visualize the descriptors and include in the report • Copy the lines of code you wrote in the report

  6. Problem 4: Matching Features • Task: • Find matching features between both images • You can use the Matlab function matchFeatures • Visualize the matching results and include a figure in your report • Copy the lines of code you wrote in the report

  7. Problem 5: RANSAC to Estimate Homography • We want to exclude outlier matches and compute a homography to map one image plane to the other • Task: • Use RANSAC to estimate a homography • You can use Matlab function estimateGeometricTransform • Visualize the matching results and include in your report • Copy the lines of code you wrote in the report

  8. Problem 6: Stitching Panorama • Need to warp images to make a panorama • Map pixels in the warped image to pixels in the input image to avoid holes in the final image • Code provided to warp the first image • Task: • Write similar code to warp and paste the second image to produce a final panoramic image • You can use MATLAB functions imwarp, vision.AlphaBlender, and step to overlay the second image on the first • Add the resulting panorama to your report • Copy the lines of code you wrote in the report

  9. Notes: • Don’t worry about blending (visible seams) • Results will vary since RANSAC is a randomized algorithm

  10. Problem 7: Take Your Own Pictures for Princeton Campus • Task: • Take two pictures of Princeton’s campus, run the code to stitch them together • Include the original two photos and the final panorama in your report

  11. Extra Credit • Many possible ways to get extra credit: • Try alpha blending to merge the overlapping image regions to get rid of boundary • Use Graph Cut to find an optimal seam between the two images • Use Poisson blending to blend the two images • Handle more than 2 images • Combine photographs into a 360° x 180° panorama (equirectangular projection) • Convert the panorama into a stereographic projection • Reconstruct the 3D geometry of the panorama

  12. What to Submit: • One PDF file report • One ZIP file containing all the source code, and a “ps3.m” file that takes no parameters as input and runs directly in Matlab to generate the results in the pdf report

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